PV System Multiple Source Single Inverter

Authors

  • Insha Farooq Talib M. Tech Scholar, Department of Electrical Engineering, RIMT University, Mandi Gobindgarh, Punjab, India Author
  • Krishna Tomar Assitant Professor, Department of Electrical Engineering, RIMT University, Mandi Gobindgarh, Punjab, India Author

DOI:

https://doi.org/10.55524/

Keywords:

Solar Energy, Thermal Energy, Power Protection, Microgrid

Abstract

Renewable energy has gotten a lot of  attention because of environmental issues like climate  change, as well as political and economic reasons  including decreased reliance on foreign energy imports and  high oil costs. The fastest-growing renewable energy  industries are wind and solar power. As advances in  renewable energy are developed, the cost of power  generated by renewable energy decreases. Renewable  energy technologies are excellent for dispersed power  generation as well as solving climate change and reducing  reliance on foreign energy imports. Renewable energy may  deliver power without expensive and intricate grid  infrastructure in distant, there are really no power sources  in remote areas, or the expense of installing distribution  networks is prohibitive. Power capacity built worldwide reached 227 gigawatts  (GW) in 2015, enough to need 1% of total electricity  generation. Thermal power plants may be located in  northern Argentina, with the largest being the 392 MW  Ivanpah Solar Electric Generation System in Arizona. This paper describes and analyses a micro-grid system that  includes different and independent PV sources connected  to a shared DC bus, as well as localized battery storage and  power monitoring and protection devices. 

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References

. Bonneville Power Administration, “2009 Wind Integration Rate Case Revised Proposal”

. Dr. Subramanian V. Vadari, Senior Member, IEEE, and Mike Davis, Integrating Smart Grid Solutions to Integrate Renewable Sources of Energy into the Electric Transmission Grid.

. Edgar A. DeMeo, Gary A. Jordan, Clint Kalich, Jack King, Michael R. Milligan, Cliff Murley, Brett Oakleaf, and Mathew J. Schuerger. Accommodating Wind’s Natural Behavior, Power and Energy Magazine, December 2007.

. Electromagnetic Transients Program (1989). Workbook 4. EPRI EL-4151 Vol. 4

. Engler. January 2005. Applicability of droops in LV grids International of Journal Distributed Energy Resources, Vol.1, no.1, pp.3-16.

. http://0ieeexplore.ieee.org.prospero.murdoch.edu.au/stamp/ stamp.jsp?tp=&arnumber =5211183&isnumber=5211162 (accessed on 19 January 2010) 51

. Lasseter, Robert, Akhil, Abbas, Marnay, Chris, Stephens, John, Dagle, Jeff, Guttromson, Ross, et al. (2002). Integration of distributed energy resources. The CERTS Microgrid Concept.

. M. Valenti “Reaching for 60 percent, the General Electric H turbine system taking shape in Wales is making a bid for a new record in thermal efficiency.” Mechanical Engineering, April 2002.

. Marnay, F. Rubio, A. Sadsiqui. 2001. The shape of the microgrid. IEEE Power Engineering Society Winter Meeting. Vol.1, pp. 50-153.

.N. D. Hatziargyriou and A. P. S. Meliopoulos, “Distributed energy sources: Technical challenges,” in Proc. IEEE PES winter meeting 2002 vol. 2, New York, NY, Jan. 2002, pp. 1017–1022.

.R. H. Lasseter, “Microgrids [distributed power generation],” in Rec. IEEE PESWM 2001, vol. 1, pp. 146 – 149. [12].R. H. Lasseter, “Microgrid’s,” in Rec. IEEE PESWM 2002, vol. 1, pp. 305 – 308.

.Robert H. Lasseter, Paolo Biagi, Microgrid: A Conceptual Solution University of Wisconsin-Madison (June 2004).

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Published

2022-07-30

Issue

Vol. 10 No. 4 (2022): International Journal of Innovative Research in Computer Science and Technology (July) 2022

Section

Articles

How to Cite

PV System Multiple Source Single Inverter . (2022). International Journal of Innovative Research in Computer Science & Technology, 10(4), 111–124. https://doi.org/10.55524/
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